Oxygen biofeedback device and methods

a biofeedback device and oxygen technology, applied in the field of supplemental oxygen devices, can solve the problems of labor-intensive manual/labor-intensive manual adjustment of oxygen delivery, two key processes of patient care on ventilators remain intermittent and manual/labor-intensive, and the manual method of adjusting oxygen delivery is labor-intensiv

Inactive Publication Date: 2018-07-05
SALVINO CHRIS +1
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  • Abstract
  • Description
  • Claims
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Benefits of technology

[0029]Another object of the invention is to provide a device that is compact, ruggedized and has components such as ...

Problems solved by technology

much or too little oxygen (both of which can cause complications) being delivered most of the time the patient is on oxygen.
Ventilators have gotten more advanced with built in microprocessors; however, two key processes of patient care on ventilators remain intermittent and manual/labor intensive—portions of oxygenation and ventilation.
Based on the oxygen levels measured the medical provider could leave the delivered oxygen amount the same, turn it higher or lower—of note, in between the spot readings the needs of the patient may vary widely most of the time resulting in too much or too little oxygen (both of which can cause complications) being delivered while the patient is on oxygen.
In addition, this manual method of adjusting the oxygen delivery is labor intensive and can have human errors.
Based on the carbon dioxide levels measured the medical provider could leave the minute volume the same, or adjust it higher or lower—of note, in between the spot readings the needs of the patient may vary widely most of the time resulting in too much or too little minute ventilation (both of which can cause complications) being delivered while patient is on a ventilator.
Both bottled oxygen and liquid supplies can become exhausted resulting in serious harm or death to patients if not recognized; this problem is much more likely to happen with bottled oxygen than liquid, but it still can happen with liquid oxygen supplies.
In addition, oxygen supply (bottled or liquid) fittings can become dislodged resulting in serious harm or death to patients if not recognized as the patient will be without oxygen.
There are no warning systems if the bottled oxygen supply is exhausted or near exhausted, and there are no warning systems for either liquid or bottled oxygen if the oxygen fittings become dislodged.
Of note, in between the spot readings the needs of the patient may vary widely resulting in too much or too little oxygen (both of which can cause compli...

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  • Oxygen biofeedback device and methods
  • Oxygen biofeedback device and methods
  • Oxygen biofeedback device and methods

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Embodiment Construction

[0032]Referring now to the drawings wherein the showings are for purposes of illustrating a preferred embodiment of the present invention and not for purposes of limiting the same. The present invention is primarily focused on non-invasive cutaneous gas sensors and methods; however, it should be understood that the sensors and methods disclosed herein could be adapted to measure and monitor blood too. Throughout the detailed description the invention discloses sensors and methods of sensing gases in tissue and blood, the most common measurement being oxygen saturation via an oximeter and often described as SpO2. There are numerous sensors that are capable of measuring other tissue and blood gas concentrations. It should be understood throughout that the present invention may utilize one or more various sensors for measuring oxygen and / or ventilation adjustment parameters (“OVAP”) in each embodiment and that specific examples are given for clarity and not to limit the scope of the in...

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Abstract

Supplemental oxygen is used by millions of people each year in hospitals and at home. The device and methods described allow people on supplemental oxygen through a feedback loop to optimize their blood oxygen level by measuring oxygen and/or carbon dioxide and/or other related gases in the blood. Because the device and methods optimize the level of supplemental oxygen and/or carbon dioxide and/or other related gases, complications (from too much or too little oxygen and/or carbon dioxide) including death can be prevented. In addition, users can reduce their costs by reducing the amount of oxygen needed as well as labor costs. Additionally, helicopters, ambulance, and mobile surgical sites can reduce weight in critical situations. In addition, the device and methods described also allow patients on ventilators through a feedback loop to optimize ventilation by measuring carbon dioxide in the blood; which can reduce complications, and reduce labor costs. Finally, the device and methods provides a warning system when the oxygen supply is compromised, has or is exhausted.

Description

CROSS-REFERENCE TO RELATED APPLICATION[0001]This is a national phase application of PCT Application PCT / US16 / 39440 filed Jun. 24, 2016 which claims priority to U.S. provisional application No. 62 / 189,658 filed Jul. 7, 2015 and U.S. provisional application No. 62 / 183,902 filed Jun. 24, 2015 the contents of which are hereby incorporated by reference.FIELD OF THE INVENTION[0002]The present invention is in the field of supplemental oxygen devices and pertains to biofeedback measurements which are used for regulating the rate and concentration of supplemental oxygen for those patients about to be, or who have been placed on, supplemental oxygen. In addition, the present invention is in the field of mechanical ventilators and pertains to biofeedback measurements of which are used to regulate components of minute ventilation and / or minute ventilation in general—as well as regulating the rate and concentration of supplemental oxygen. Finally, the present invention is in the field of a warni...

Claims

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Application Information

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IPC IPC(8): A61M16/10A61M16/06
CPCA61M16/1005A61M16/0677A61M2202/0208A61M2230/205A61M2230/432A61B5/486A61M16/0051A61M16/024A61M2202/0007A61M2230/005
Inventor SALVINO, CHRISWHITE, SCOTT
Owner SALVINO CHRIS
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